/**************************************************************************** ** ** This file is part of the LibreCAD project, a 2D CAD program ** ** Copyright (C) 2010 R. van Twisk (librecad@rvt.dds.nl) ** Copyright (C) 2001-2003 RibbonSoft. All rights reserved. ** ** ** This file may be distributed and/or modified under the terms of the ** GNU General Public License version 2 as published by the Free Software ** Foundation and appearing in the file gpl-2.0.txt included in the ** packaging of this file. ** ** This program is distributed in the hope that it will be useful, ** but WITHOUT ANY WARRANTY; without even the implied warranty of ** MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the ** GNU General Public License for more details. ** ** You should have received a copy of the GNU General Public License ** along with this program; if not, write to the Free Software ** Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA ** ** This copyright notice MUST APPEAR in all copies of the script! ** **********************************************************************/ #include #include "rs_dimdiametric.h" #include "rs_mtext.h" #include "rs_solid.h" #include "rs_graphic.h" #include "rs_units.h" #include "rs_debug.h" RS_DimDiametricData::RS_DimDiametricData(): definitionPoint(false), leader(0.0) {} /** * Constructor with initialisation. * * @param definitionPoint Definition point of the diametric dimension. * @param leader Leader length. */ RS_DimDiametricData::RS_DimDiametricData(const RS_Vector& _definitionPoint, double _leader): definitionPoint(_definitionPoint) ,leader(_leader) { } std::ostream& operator << (std::ostream& os, const RS_DimDiametricData& dd) { os << "(" << dd.definitionPoint << "," << dd.leader << ")"; return os; } /** * Constructor. * * @para parent Parent Entity Container. * @para d Common dimension geometrical data. * @para ed Extended geometrical data for diametric dimension. */ RS_DimDiametric::RS_DimDiametric(RS_EntityContainer* parent, const RS_DimensionData& d, const RS_DimDiametricData& ed) : RS_Dimension(parent, d), edata(ed) { calculateBorders(); } RS_Entity* RS_DimDiametric::clone() const { RS_DimDiametric* d = new RS_DimDiametric(*this); d->setOwner(isOwner()); d->initId(); d->detach(); return d; } /** * @return Automatically created label for the default * measurement of this dimension. */ QString RS_DimDiametric::getMeasuredLabel() { // Definitive dimension line: double dist = data.definitionPoint.distanceTo(edata.definitionPoint) * getGeneralFactor(); RS_Graphic* graphic = getGraphic(); QString ret; if (graphic) { int dimlunit = getGraphicVariableInt("$DIMLUNIT", 2); int dimdec = getGraphicVariableInt("$DIMDEC", 4); int dimzin = getGraphicVariableInt("$DIMZIN", 1); RS2::LinearFormat format = graphic->getLinearFormat(dimlunit); ret = RS_Units::formatLinear(dist, RS2::None, format, dimdec); if (format == RS2::Decimal) ret = stripZerosLinear(ret, dimzin); //verify if units are decimal and comma separator if (format == RS2::Decimal || format == RS2::ArchitecturalMetric){ if (getGraphicVariableInt("$DIMDSEP", 0) == 44) ret.replace(QChar('.'), QChar(',')); } } else { ret = QString("%1").arg(dist); } return ret; } RS_VectorSolutions RS_DimDiametric::getRefPoints() const { return RS_VectorSolutions({edata.definitionPoint, data.definitionPoint, data.middleOfText}); } /** * Updates the sub entities of this dimension. Called when the * dimension or the position, alignment, .. changes. * * @param autoText Automatically reposition the text label */ void RS_DimDiametric::updateDim(bool autoText) { RS_DEBUG->print("RS_DimDiametric::update"); clear(); if (isUndone()) { return; } // dimension line: updateCreateDimensionLine(data.definitionPoint, edata.definitionPoint, true, true, autoText); calculateBorders(); } void RS_DimDiametric::move(const RS_Vector& offset) { RS_Dimension::move(offset); edata.definitionPoint.move(offset); update(); } void RS_DimDiametric::rotate(const RS_Vector& center, const double& angle) { rotate(center,RS_Vector(angle)); } void RS_DimDiametric::rotate(const RS_Vector& center, const RS_Vector& angleVector) { RS_Dimension::rotate(center, angleVector); edata.definitionPoint.rotate(center, angleVector); update(); } void RS_DimDiametric::scale(const RS_Vector& center, const RS_Vector& factor) { RS_Dimension::scale(center, factor); edata.definitionPoint.scale(center, factor); edata.leader*=factor.x; update(); } void RS_DimDiametric::mirror(const RS_Vector& axisPoint1, const RS_Vector& axisPoint2) { RS_Dimension::mirror(axisPoint1, axisPoint2); edata.definitionPoint.mirror(axisPoint1, axisPoint2); update(); } void RS_DimDiametric::moveRef(const RS_Vector& ref, const RS_Vector& offset) { if (ref.distanceTo(edata.definitionPoint)<1.0e-4) { RS_Vector c = (edata.definitionPoint + data.definitionPoint)/2.0; double d = c.distanceTo(edata.definitionPoint); double a = c.angleTo(edata.definitionPoint + offset); RS_Vector v = RS_Vector::polar(d, a); edata.definitionPoint = c + v; data.definitionPoint = c - v; updateDim(true); } else if (ref.distanceTo(data.definitionPoint)<1.0e-4) { RS_Vector c = (edata.definitionPoint + data.definitionPoint)/2.0; double d = c.distanceTo(data.definitionPoint); double a = c.angleTo(data.definitionPoint + offset); RS_Vector v = RS_Vector::polar(d, a); data.definitionPoint = c + v; edata.definitionPoint = c - v; updateDim(true); } else if (ref.distanceTo(data.middleOfText)<1.0e-4) { data.middleOfText.move(offset); updateDim(false); } } /** * Dumps the point's data to stdout. */ std::ostream& operator << (std::ostream& os, const RS_DimDiametric& d) { os << " DimDiametric: " << d.getData() << "\n" << d.getEData() << "\n"; return os; }